Study on Sensitivity Evaluation and Mechanism of Offshore Fluvial Reservoir

Authors

  • Jie Tan Tianjin Branch of CNOOC Ltd., Tianjin, China
  • Jie Tan Tianjin Branch of CNOOC Ltd., Tianjin, China
  • Dongdong Yang Tianjin Branch of CNOOC Ltd., Tianjin, China
  • Jingmin Guo Tianjin Branch of CNOOC Ltd., Tianjin, China
  • Qin Peng Tianjin Branch of CNOOC Ltd., Tianjin, China
  • Enhui Sun Tianjin Branch of CNOOC Ltd., Tianjin, China

Keywords:

The CFD oilfield, Sensitivity, Clay minerals, Reservoir damage, Experiment

Abstract

The CFD oilfield is located in the western waters of the Bohai Sea, and the reservoir rock types are mainly lithic feldspar sandstone, followed by feldspar lithic sandstone, belonging to high porosity to medium high permeability reservoirs. During the process of water injection development, the production capacity of oil wells continues to decline. The effect of injecting water to increase oil is poor. This study conducted rock mineralogical analysis such as casting thin sections and scanning electron microscopy based on on-site data. Through core experiments, the sensitivity of the reservoir was evaluated, and data analysis showed that clay minerals damage the reservoir in the form of swelling, particle transport, etc. Theoretically, the damage mode of clay minerals to the oil reservoir was analyzed. Provide a basis for the development of similar oil fields. 

References

Kexiang L. (1993) Drilling and completion technology for protecting oil and gas reservoirs. Beijing: Petroleum Industry Press

Lima, R.O., do Nascimento Guimar?es, L.J. & Pereira, L.C. Evaluating geomechanical effects related to the production of a Brazilian reservoir. J Petrol Explor Prod Technol 11, 2661–2678 (2021). https://doi.org/10.1007/s13202-021-01190-6

Lin, X., Xuewei, L., Longkan, S. et al. The study on experimental method of fluid stress sensitivity of low permeability in tight reservoir. J Petrol Explor Prod Technol 11, 2599–2608 (2021). https://doi.org/10.1007/s13202-021-01187-1

Min X.(2007) Analysis of reservoir sensitivity in BZ25-1S block. Dissertation, China University of Petroleum

Ahmed, Q. A., Nimir, H. B., Ayoub, M. A. et al. Application of variance-based sensitivity analysis in modeling oil well productivity and injectivity. J Petrol Explor Prod Technol 10, 729–738 (2020). https://doi.org/10.1007/s13202-019-00771-w

Liyan S.(2008) Experimental study on reservoir sensitivity in Yongle oilfield. Dissertation, Zhejiang University

Ogbamikhumi, A., Omorogieva, O.M. Rock property modelling and sensitivity analysis for hydrocarbon exploration in OSSY field, Niger Delta Basin. J Petrol Explor Prod Technol 11, 1809–1822 (2021). https://doi.org/10.1007/s13202-021-01130-4

Yingjun L. (1996) Reservoir protection technology in oilfield development and production. Beijing: Petroleum Industry Press

Liping W., Xinhai W. (2006) Reservoir sensitivity evaluation of block L10. Journal of Oil and Gas Technology (J.JPI), 26 (6): 51-53

Shizhong F., Yuanqian C. (1997) Reservoir protection and evaluation. Beijing: Petroleum Industry Press

Pingya L. (1997) Reservoir protection technology. Beijing: Petroleum Industry Press

Min Z., Tongtai X. (1995) Reservoir protection technology. Beijing: Petroleum Industry Press

Gengsheng H. (1994) Reservoir physics. Beijing: Petroleum Industry Press

Fengyi Z., Xiangan Y., Hongwei P. (2007) Effect of pressure sensitivity on production rate in low permeability sandstone formation. Oil Drilling& Production Technology, 29 (1):69-71

Baoqing X.(2006) Reservoir sensitivity evaluation in Linpan oilfield. Special Oil and Gas Reservoirs, 13(5):94-95

Xifeng Z., Heping S., Hejing T., Changyong L.(2007) Sensitivity experimental evaluation of chang 6 reservoir in xiasiwan oilfield of Shanbei. Oil Drilling& Production Technology, 30(3):115-117

Yu L., Minzhi Z., Li Y., Cheng W. (2006) The special mineralogy controlling factors for the sensitivity of deep clastic gas layers. Petroleum Geology and Oil Field Development of Daqing, 25 (2): 12-14

Hongzhuang Y., Jianmeng S., Chengwen X. (2006) Comprehensive prediction of formation sensitivity in Tabei area. Petroleum Geology and Recovery Efficiency, 13(5):53-55

Xiaoxu L., Yong H., Bin Z., Jinzhou Z. (2006) Influential factor analysis of reservoir stress sensitivity. Special Oil and Gas Reservoirs, 13(3):18-21

Changjun W., Juesheng L., Wu C., Ping M., Rong Z., Yan C.(2006) Experimental study on evaluation of reservoir sensitivity. Chemistry and Bioengineering, 23(6):44-46

Jun G., Xiangqing H., Shujun W., Yudong Z., Shuiqing Z. (2006) Mineral characters and sensibility evaluation of heavy oil reservoir in tuyuke oilfield. Oil Drilling& Production Technology, 30(3):115-117

Cao, LN., Lu, LZ., Li, XP.et al. Transient model analysis of gas flow behavior for a multi-fractured horizontal well incorporating stress-sensitive permeability. J Petrol Explor Prod Technol 9, 855–867 (2019). https://doi.org/10.1007/s13202-018-0555-z

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Published

2024-12-23

How to Cite

Tan, J., Tan, J., Yang, D., Guo, J., Peng, Q., & Sun, E. (2024). Study on Sensitivity Evaluation and Mechanism of Offshore Fluvial Reservoir. Journal of Theory and Practice in Engineering and Technology, 1(4), 17–28. Retrieved from https://woodyinternational.com/index.php/jtpet/article/view/99

Issue

Vol. 1 No. 4 (2024): Journal of Theory and Practice in Engineering and Technology Volume 1 Issue 4 2024

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Articles

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Copyright (c) 2024 Jie Tan, Jie Tan, Dongdong Yang, Jingmin Guo, Qin Peng, Enhui Sun

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